Current Attempt in Progress Two barges, each with a displacement (mass) of 400 Mg, along the deck, and leaves the end of the 15° ramp at a speed of 37 km/h relative to the barge and ramp. The driver successfully jumps the gap and brings his car to rest relative to barge 2 at B. Calculate the velocity v2 imparted to barge 2 just after the car has come to rest on the barge. Neglect the loosely moored in calm water. A stunt driver starts his 1710-kg car from rest at A, drives are resistance of the water to motion at the low velocities involved. 1 2 15° Answer: V2 m/s =
Current Attempt in Progress Two barges, each with a displacement (mass) of 400 Mg, along the deck, and leaves the end of the 15° ramp at a speed of 37 km/h relative to the barge and ramp. The driver successfully jumps the gap and brings his car to rest relative to barge 2 at B. Calculate the velocity v2 imparted to barge 2 just after the car has come to rest on the barge. Neglect the loosely moored in calm water. A stunt driver starts his 1710-kg car from rest at A, drives are resistance of the water to motion at the low velocities involved. 1 2 15° Answer: V2 m/s =
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Current Attempt in Progress
Two barges, each with a displacement (mass) of 400 Mg,
along the deck, and leaves the end of the 15° ramp at a speed of 37 km/h relative to the barge and ramp. The driver successfully jumps the gap and brings
his car to rest relative to barge 2 at B. Calculate the velocity v2 imparted to barge 2 just after the car has come to rest on the barge. Neglect the
loosely moored in calm water. A stunt driver starts his 1710-kg
car from rest at A, drives
are
resistance of the water to motion at the low velocities involved.
1
2
15°
Answer: V2
m/s
=
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